JPS6317028A - Method for ultrasonic welding of resin item - Google Patents

Abstract

PURPOSE:To increase the joint cross-sectional area of molten resin and consequently improve the weld strength of welded resin items by a method wherein an empty space is provided at the joint area of the resin items, both of which are made of the same kind of material, and the portion, in which said empty space is provided, is spot-welded with an ultrasonic horn. CONSTITUTION:An empty space is formed at the joint area of resin items 3 and 4 by providing a recess on the resin item 3. The welding of the resin item 3 to the resin item 4 is done by piercing resin material and at the same time by melting resin with the convex part 2 at the tip of an ultrasonic horn 1 by applying pressure to the horn 1. The molten resin flows in the empty space 5 at the joint area so as to fill said space. The volume of the empty space 5 is set by judging from the anticipated amount of molten resin. The section of the joint area after welding is shown in the figures (b) or in the state that molten resin 6 is sandwiched between the resin items 3 and 4. In addition to the above-mentioned method, another method to form the empty space 5 at the joint area is to provide a loop-like convexity 7, which forms a dam, onto one of the joint area of the resin items 3 and 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a method of p-spot welding resin parts made of the same type of material together using ultrasonic waves.

(Prior Art) A spot welding method using ultrasonic waves has been known as a method for welding resin parts.

As shown in FIG. 5(a), this conventional technology
Apply the horn 1 with ultrasonic vibration to the part where 4 and 19 meet, apply pressure in the direction of the arrow, and melt the resin material while making a hole in the resin material with the convex part 2 at the tip of the horn. It does all the gluing of parts together.

Fig. 5 (c4 shows the cross section of the welded part after welding, but the resin 6 melted by the horn 1 is the resin part 3.
．． 4, the adhesive strength between the resin parts can be maintained.

(Problems to be Solved by the Invention) Figure 5 (c) is an enlarged view showing the welded part A within the nine circles surrounded by dotted lines in Figure 5 (b). As shown in the cross-sectional view, in the conventional technique, the welding strength is ensured by the ring-shaped cross-sectional area 10 of the molten resin. Therefore, the sizes of the horn 1 and its tip 2 are limited by product design, etc., and it is difficult to ensure a sufficient welded joint cross-sectional area.

(Detailed means for solving the problem) The present inventor has determined that in ultrasonic spot welding of resin parts made of the same material, the welding strength is the welding cross-sectional area of the molten resin (the cross-sectional area of the boundary between the two parts). It was confirmed through experiments that there is a relationship between In this experiment, as shown in Figure 4 (b), the horizontal
．． All welding was done using an ultrasonic horn for all types of polypropylene specimens with a length of 7IL and a length of 10 oini.
By changing the dimension A of the ultrasonic horn, the bonding cross-sectional area was varied. The weld strength of the joint was measured using a tensile strength tester. FIG. 4(A) is a graph showing the relationship between the dimension A (joint cross-sectional area) of the ultrasonic horn and the welding strength.

As is clear from this graph, in ultrasonic spot welding of resin parts made of the same material, the welding strength is correlated with the joint cross-sectional area of the molten resin, but in the present invention, By providing a space between the joint surfaces of resin parts and spot welding the part with the space using an ultrasonic horn, the joint cross-sectional area of the molten resin is increased and the welding strength is improved.

Hereinafter, the present invention will be explained in detail with reference to the drawings.

Figure 1 (a) shows the cross section of the resin parts before welding (b).
shows the cross section after welding. In FIG. 1(A), 2 is a convex portion at the tip of the IFi ultrasonic horn, 3 and 4 are resin parts, and 5 is a space formed at the joint surface of the resin part 5.4. The space is formed by filling the entire concave portion of the resin part 3.

To weld the resin parts 3.4, apply pressure to the ultrasonic horn 1,
This is done by melting the resin while making holes in the resin material using the convex portion 2 at the tip of the horn. The melted resin flows into the space 5 of the joint surface and fills the space. The volume of the space 5 is determined based on the expected amount of badly dissolved resin.

The cross section of the joint after welding is as shown in FIG. 1(B), and the molten resin 6 is sandwiched between the resin parts 3.4. In the case of Fig. 1, the space on the joint surface of the resin parts is provided by forming a recess in the part corresponding to the joint part of the resin parts, but in other cases, as shown in Figs. 2 and 3. It can be formed in various ways. In the case of Fig. 2, a loop-shaped convex portion 7 serving as a dam is provided on one of the joint surfaces of the resin part 3.4 to form a space 5 on the joint surface. (0
) As shown in K, the melted resin 6 fills the space 5, creating a sandwich state 6 between the resin parts 5 and 4, and the welding strength is improved by increasing the joint cross-sectional area.

In the case of Fig. 3, a space is formed on the joint surfaces of the resin parts 3.4 by providing V-shaped wave-shaped recesses 8.9 at right angles to each other on each joint surface. In this case, as shown in Figure 3 (b), the molten resin fills the V-shaped recesses in both resin parts, increasing the joint cross-sectional area of the molten resin and adding an anchor effect, which improves the joint area. The welding strength is further improved.

(Function) A space is provided between the joint surfaces of resin parts, and by spot welding all parts of the space using an ultrasonic horn, the molten resin flows into the joint surface space, and the molten resin flows into the joint surface space. The molten resin becomes sandwiched between the bonding surfaces of the resin parts, and the bonding cross-sectional area of the molten resin increases.

(Example) Used as a resin part for automobile instrument panels and defroster nozzles.The entire defroster nozzle was spot welded to the instrument panel using an ultrasonic horn.

As shown in FIG. 1, the space provided at the joint surface with the instrument panel totefrost nozzle had the same surface area as the ultrasonic horn 1, and the gap between both parts was approximately α5 to 1♂. The strength of the joint after spot welding is 2 times higher than when spot welding is performed without creating a space in the joint.
~3 times improved.

(Effects of the Invention) In the present invention, by providing a space on the joint surface of the resin parts and spot welding the part with the space using an ultrasonic horn, the molten resin fills the space 2 on the joint surface, The joint cross-sectional area of the molten resin increases, and as a result, the welding strength of the joint increases significantly.

(9) When welding large parts that have multiple welding points, there is no need to apply all the welding points and keep the welding surfaces completely inoculated, making it possible to absorb variations in product accuracy. .

[Brief explanation of drawings]

Figures 1 to 3 are explanatory diagrams of the present invention, Figure 4 (a) is a graph showing the relationship between joint cross-sectional area and welding strength, Figure 4 (b) is an explanatory diagram of the test method, and Figure 5 is a graph showing the relationship between the joint cross-sectional area and welding strength. FIG. 2 is an explanatory diagram of a conventional spot welding method. 1... Ultrasonic horn 2... Ultrasonic horn tip 3.4... Resin part 5... Space at joint surface 6.
...Melted resin 7...Loop-shaped convex portion 8,?・
...V-shaped wavy recess Patent applicant Toyota Motor Corporation Figure 1 (A) 2 Electric (A) (B) 5
Figure (a) ↓ (b) (c) (d)

Claims (1)

[Claims] 1. A method for spot welding resin parts made of the same kind of material, the method comprising: providing a space between the joint surfaces of the resin parts, and welding the part with the space using an ultrasonic horn.